/* -*- c++ -*- */
/*
 * Copyright 2012,2014 Free Software Foundation, Inc.
 *
 * This file is part of GNU Radio
 *
 * SPDX-License-Identifier: GPL-3.0-or-later
 *
 */

#include <gnuradio/qtgui/freqdisplayform.h>

#include <gnuradio/qtgui/freqcontrolpanel.h>
#include <QMessageBox>
#include <QSpacerItem>
#include <cmath>

FreqDisplayForm::FreqDisplayForm(int nplots, QWidget* parent)
    : DisplayForm(nplots, parent)
{
    d_int_validator = new QIntValidator(this);
    d_int_validator->setBottom(0);

    d_layout = new QGridLayout(this);
    d_layout->setContentsMargins(0, 0, 0, 0);
    d_display_plot = new FrequencyDisplayPlot(nplots, this);
    d_layout->addWidget(d_display_plot, 0, 0);

    d_layout->setColumnStretch(0, 1);
    setLayout(d_layout);

    d_controlpanel = NULL;

    d_num_real_data_points = 1024;
    d_fftsize = 1024;
    d_fftavg = 1.0;
    d_clicked = false;
    d_clicked_freq = 0;

    d_trig_mode = gr::qtgui::TRIG_MODE_FREE;
    d_trig_level = 0;
    d_trig_channel = 0;
    d_trig_tag_key = "";

    d_sizemenu = new FFTSizeMenu(this);
    d_avgmenu = new FFTAverageMenu(this);
    d_winmenu = new FFTWindowMenu(this);
    d_menu->addMenu(d_sizemenu);
    d_menu->addMenu(d_avgmenu);
    d_menu->addMenu(d_winmenu);
    connect(d_sizemenu, SIGNAL(whichTrigger(int)), this, SLOT(setFFTSize(const int)));
    connect(
        d_avgmenu, SIGNAL(whichTrigger(float)), this, SLOT(setFFTAverage(const float)));
    connect(d_winmenu,
            SIGNAL(whichTrigger(gr::fft::window::win_type)),
            this,
            SLOT(setFFTWindowType(const gr::fft::window::win_type)));

    PopupMenu* maxymenu = new PopupMenu("Y Max", this);
    d_menu->addAction(maxymenu);
    connect(maxymenu, SIGNAL(whichTrigger(QString)), this, SLOT(setYMax(QString)));

    PopupMenu* minymenu = new PopupMenu("Y Min", this);
    d_menu->addAction(minymenu);
    connect(minymenu, SIGNAL(whichTrigger(QString)), this, SLOT(setYMin(QString)));

    d_maxhold_act = new QAction("Max Hold", this);
    d_maxhold_act->setCheckable(true);
    d_menu->addAction(d_maxhold_act);
    connect(d_maxhold_act, SIGNAL(triggered(bool)), this, SLOT(notifyMaxHold(bool)));
    d_minhold_act = new QAction("Min Hold", this);
    d_minhold_act->setCheckable(true);
    d_menu->addAction(d_minhold_act);
    connect(d_minhold_act, SIGNAL(triggered(bool)), this, SLOT(notifyMinHold(bool)));

    // Set up the trigger menu
    d_triggermenu = new QMenu("Trigger", this);
    d_tr_mode_menu = new TriggerModeMenu(this);
    d_tr_level_act = new PopupMenu("Level", this);
    d_tr_channel_menu = new TriggerChannelMenu(nplots, this);
    d_tr_tag_key_act = new PopupMenu("Tag Key", this);
    d_triggermenu->addMenu(d_tr_mode_menu);
    d_triggermenu->addAction(d_tr_level_act);
    d_triggermenu->addMenu(d_tr_channel_menu);
    d_triggermenu->addAction(d_tr_tag_key_act);
    d_menu->addMenu(d_triggermenu);

    d_controlpanelmenu = new QAction("Control Panel", this);
    d_controlpanelmenu->setCheckable(true);
    d_menu->addAction(d_controlpanelmenu);
    connect(
        d_controlpanelmenu, SIGNAL(triggered(bool)), this, SLOT(setupControlPanel(bool)));

    setTriggerMode(gr::qtgui::TRIG_MODE_FREE);
    connect(d_tr_mode_menu,
            SIGNAL(whichTrigger(gr::qtgui::trigger_mode)),
            this,
            SLOT(setTriggerMode(gr::qtgui::trigger_mode)));
    // updates trigger state by calling set level or set tag key.
    connect(d_tr_mode_menu,
            SIGNAL(whichTrigger(gr::qtgui::trigger_mode)),
            this,
            SLOT(updateTrigger(gr::qtgui::trigger_mode)));

    setTriggerLevel(0);
    connect(d_tr_level_act,
            SIGNAL(whichTrigger(QString)),
            this,
            SLOT(setTriggerLevel(QString)));
    connect(this, SIGNAL(signalTriggerLevel(float)), this, SLOT(setTriggerLevel(float)));

    setTriggerChannel(0);
    connect(
        d_tr_channel_menu, SIGNAL(whichTrigger(int)), this, SLOT(setTriggerChannel(int)));

    setTriggerTagKey(std::string(""));
    connect(d_tr_tag_key_act,
            SIGNAL(whichTrigger(QString)),
            this,
            SLOT(setTriggerTagKey(QString)));

    connect(this, SIGNAL(signalClearMaxData()), getPlot(), SLOT(clearMaxData()));
    connect(this, SIGNAL(signalClearMinData()), getPlot(), SLOT(clearMinData()));
    connect(this,
            SIGNAL(signalSetMaxFFTVisible(bool)),
            getPlot(),
            SLOT(setMaxFFTVisible(bool)));
    connect(this,
            SIGNAL(signalSetMinFFTVisible(bool)),
            getPlot(),
            SLOT(setMinFFTVisible(bool)));

    Reset();

    connect(d_display_plot,
            SIGNAL(plotPointSelected(const QPointF)),
            this,
            SLOT(onPlotPointSelected(const QPointF)));

    connect(this, SIGNAL(signalReplot()), getPlot(), SLOT(replot()));
}

FreqDisplayForm::~FreqDisplayForm()
{
    // Qt deletes children when parent is deleted

    // Don't worry about deleting Display Plots - they are deleted when parents are
    // deleted
    delete d_int_validator;

    teardownControlPanel();
}

void FreqDisplayForm::setupControlPanel(bool en)
{
    if (en) {
        setupControlPanel();
    } else {
        teardownControlPanel();
    }
}

void FreqDisplayForm::setupControlPanel()
{
    if (d_controlpanel)
        delete d_controlpanel;

    // Create the control panel layout
    d_controlpanel = new FreqControlPanel(this);

    // Connect action items in menu to controlpanel widgets
    connect(d_grid_act, SIGNAL(triggered(bool)), d_controlpanel, SLOT(toggleGrid(bool)));
    connect(d_axislabelsmenu,
            SIGNAL(triggered(bool)),
            d_controlpanel,
            SLOT(toggleAxisLabels(bool)));
    connect(
        d_sizemenu, SIGNAL(whichTrigger(int)), d_controlpanel, SLOT(toggleFFTSize(int)));
    connect(d_winmenu,
            SIGNAL(whichTrigger(gr::fft::window::win_type)),
            d_controlpanel,
            SLOT(toggleFFTWindow(gr::fft::window::win_type)));
    connect(this, SIGNAL(signalFFTSize(int)), d_controlpanel, SLOT(toggleFFTSize(int)));
    connect(this,
            SIGNAL(signalFFTWindow(gr::fft::window::win_type)),
            d_controlpanel,
            SLOT(toggleFFTWindow(gr::fft::window::win_type)));
    connect(d_maxhold_act,
            SIGNAL(triggered(bool)),
            d_controlpanel,
            SLOT(toggleMaxHold(bool)));
    connect(d_minhold_act,
            SIGNAL(triggered(bool)),
            d_controlpanel,
            SLOT(toggleMinHold(bool)));
    connect(d_avgmenu,
            SIGNAL(whichTrigger(float)),
            d_controlpanel,
            SLOT(setFFTAverage(float)));
    connect(d_tr_mode_menu,
            SIGNAL(whichTrigger(gr::qtgui::trigger_mode)),
            d_controlpanel,
            SLOT(toggleTriggerMode(gr::qtgui::trigger_mode)));
    connect(this,
            SIGNAL(signalTriggerMode(gr::qtgui::trigger_mode)),
            d_controlpanel,
            SLOT(toggleTriggerMode(gr::qtgui::trigger_mode)));
    connect(d_stop_act, SIGNAL(triggered()), d_controlpanel, SLOT(toggleStopButton()));

    d_layout->addLayout(d_controlpanel, 0, 1);

    d_controlpanel->toggleGrid(d_grid_act->isChecked());
    d_controlpanel->toggleAxisLabels(d_axislabelsmenu->isChecked());
    d_controlpanelmenu->setChecked(true);
    d_controlpanel->toggleTriggerMode(getTriggerMode());
    d_controlpanel->toggleMaxHold(d_maxhold_act->isChecked());
    d_controlpanel->toggleMinHold(d_minhold_act->isChecked());
    d_controlpanel->setFFTAverage(getFFTAverage());

    emit signalFFTSize(getFFTSize());
    emit signalFFTWindow(getFFTWindowType());
}

void FreqDisplayForm::teardownControlPanel()
{
    if (d_controlpanel) {
        d_layout->removeItem(d_controlpanel);
        delete d_controlpanel;
        d_controlpanel = NULL;
    }
    d_controlpanelmenu->setChecked(false);
}

FrequencyDisplayPlot* FreqDisplayForm::getPlot()
{
    return ((FrequencyDisplayPlot*)d_display_plot);
}

void FreqDisplayForm::newData(const QEvent* updateEvent)
{
    FreqUpdateEvent* fevent = (FreqUpdateEvent*)updateEvent;
    const std::vector<double*> dataPoints = fevent->getPoints();
    const uint64_t numDataPoints = fevent->getNumDataPoints();

    getPlot()->plotNewData(dataPoints, numDataPoints, 0, 0, 0, d_update_time);
}

void FreqDisplayForm::customEvent(QEvent* e)
{
    if (e->type() == FreqUpdateEvent::Type()) {
        newData(e);
    } else if (e->type() == SpectrumFrequencyRangeEventType) {
        SetFreqEvent* fevent = (SetFreqEvent*)e;
        setFrequencyRange(fevent->getCenterFrequency(), fevent->getBandwidth());
    }
}

int FreqDisplayForm::getFFTSize() const { return d_fftsize; }

float FreqDisplayForm::getFFTAverage() const { return d_fftavg; }

gr::fft::window::win_type FreqDisplayForm::getFFTWindowType() const
{
    return d_fftwintype;
}

void FreqDisplayForm::setSampleRate(const QString& samprate)
{
    setFrequencyRange(d_center_freq, samprate.toDouble());
}

void FreqDisplayForm::setFFTSize(const int newsize)
{
    d_fftsize = newsize;
    d_sizemenu->getActionFromSize(newsize)->setChecked(true);

    emit signalReplot();
    emit signalFFTSize(newsize);
}

void FreqDisplayForm::setFFTAverage(const float newavg)
{
    d_fftavg = newavg;
    d_avgmenu->getActionFromAvg(newavg)->setChecked(true);
    emit signalReplot();
    // emit signalFFTAverage(newavg);
}

void FreqDisplayForm::setFFTWindowType(const gr::fft::window::win_type newwin)
{
    d_fftwintype = newwin;
    d_winmenu->getActionFromWindow(newwin)->setChecked(true);
    emit signalReplot();
    emit signalFFTWindow(newwin);
}

void FreqDisplayForm::setFrequencyRange(const double centerfreq, const double bandwidth)
{
    std::string strunits[4] = { "Hz", "kHz", "MHz", "GHz" };
    double units10 = floor(log10(bandwidth));
    double units3 = std::max(floor(units10 / 3.0), 0.0);
    d_units = pow(10, (units10 - fmod(units10, 3.0)));
    int iunit = static_cast<int>(units3);

    d_center_freq = centerfreq;
    d_samp_rate = bandwidth;

    getPlot()->setFrequencyRange(centerfreq, bandwidth, d_units, strunits[iunit]);
}

void FreqDisplayForm::setYaxis(double min, double max) { getPlot()->setYaxis(min, max); }

void FreqDisplayForm::setYLabel(const std::string& label, const std::string& unit)
{
    getPlot()->setYLabel(label, unit);
}

void FreqDisplayForm::setYMax(const QString& m)
{
    double new_max = m.toDouble();
    double cur_ymin = getPlot()->getYMin();
    if (new_max > cur_ymin)
        setYaxis(cur_ymin, new_max);
}

void FreqDisplayForm::setYMin(const QString& m)
{
    double new_min = m.toDouble();
    double cur_ymax = getPlot()->getYMax();
    if (new_min < cur_ymax)
        setYaxis(new_min, cur_ymax);
}

void FreqDisplayForm::autoScale(bool en)
{
    if (en) {
        d_autoscale_state = true;
    } else {
        d_autoscale_state = false;
    }

    d_autoscale_act->setChecked(en);
    getPlot()->setAutoScale(d_autoscale_state);
    emit signalReplot();
}

void FreqDisplayForm::autoScaleShot()
{
    getPlot()->setAutoScaleShot();
    emit signalReplot();
}

void FreqDisplayForm::setPlotPosHalf(bool half)
{
    getPlot()->setPlotPosHalf(half);
    emit signalReplot();
}

void FreqDisplayForm::clearMaxHold() { getPlot()->clearMaxData(); }

void FreqDisplayForm::clearMinHold() { getPlot()->clearMinData(); }

void FreqDisplayForm::onPlotPointSelected(const QPointF p)
{
    d_clicked = true;
    d_clicked_freq = d_units * p.x();
}

bool FreqDisplayForm::checkClicked()
{
    if (d_clicked) {
        d_clicked = false;
        return true;
    } else {
        return false;
    }
}

float FreqDisplayForm::getClickedFreq() const { return d_clicked_freq; }


/********************************************************************
 * TRIGGER METHODS
 *******************************************************************/

void FreqDisplayForm::setTriggerMode(gr::qtgui::trigger_mode mode)
{
    d_trig_mode = mode;
    d_tr_mode_menu->getAction(mode)->setChecked(true);

    if ((d_trig_mode == gr::qtgui::TRIG_MODE_AUTO) ||
        (d_trig_mode == gr::qtgui::TRIG_MODE_NORM)) {
        getPlot()->attachTriggerLine(true);
    } else {
        getPlot()->attachTriggerLine(false);
    }

    emit signalReplot();
    emit signalTriggerMode(mode);
}

void FreqDisplayForm::updateTrigger(gr::qtgui::trigger_mode mode)
{
    // If auto or normal mode, popup trigger level box to set
    if ((d_trig_mode == gr::qtgui::TRIG_MODE_AUTO) ||
        (d_trig_mode == gr::qtgui::TRIG_MODE_NORM)) {
        d_tr_level_act->activate(QAction::Trigger);
        getPlot()->attachTriggerLine(true);
    } else {
        getPlot()->attachTriggerLine(false);
    }

    // if tag mode, popup tag key box to set
    if ((d_trig_tag_key.empty()) && (d_trig_mode == gr::qtgui::TRIG_MODE_TAG))
        d_tr_tag_key_act->activate(QAction::Trigger);

    emit signalReplot();
    emit signalTriggerMode(mode);
}

gr::qtgui::trigger_mode FreqDisplayForm::getTriggerMode() const { return d_trig_mode; }

void FreqDisplayForm::setTriggerLevel(QString s)
{
    d_trig_level = s.toFloat();

    if ((d_trig_mode == gr::qtgui::TRIG_MODE_AUTO) ||
        (d_trig_mode == gr::qtgui::TRIG_MODE_NORM)) {
        getPlot()->setTriggerLine(d_trig_level);
    }

    emit signalReplot();
}

void FreqDisplayForm::setTriggerLevel(float level)
{
    d_trig_level = level;
    d_tr_level_act->setText(QString().setNum(d_trig_level));

    if ((d_trig_mode == gr::qtgui::TRIG_MODE_AUTO) ||
        (d_trig_mode == gr::qtgui::TRIG_MODE_NORM)) {
        getPlot()->setTriggerLine(d_trig_level);
    }

    emit signalReplot();
}

float FreqDisplayForm::getTriggerLevel() const { return d_trig_level; }

void FreqDisplayForm::setTriggerChannel(int channel)
{
    d_trig_channel = channel;
    d_tr_channel_menu->getAction(d_trig_channel)->setChecked(true);
    emit signalReplot();
}

int FreqDisplayForm::getTriggerChannel() const { return d_trig_channel; }

void FreqDisplayForm::setTriggerTagKey(QString s) { d_trig_tag_key = s.toStdString(); }

void FreqDisplayForm::setTriggerTagKey(const std::string& key)
{
    d_trig_tag_key = key;
    d_tr_tag_key_act->setText(QString().fromStdString(d_trig_tag_key));
    emit signalReplot();
}

std::string FreqDisplayForm::getTriggerTagKey() const { return d_trig_tag_key; }


/********************************************************************
 * Notification messages from the control panel
 *******************************************************************/


void FreqDisplayForm::notifyYAxisPlus()
{
#if QWT_VERSION < 0x060100
    QwtScaleDiv* ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax->upperBound() - ax->lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax->lowerBound() + step, ax->upperBound() + step);

#else

    QwtScaleDiv ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax.upperBound() - ax.lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax.lowerBound() + step, ax.upperBound() + step);
#endif
}

void FreqDisplayForm::notifyYAxisMinus()
{
#if QWT_VERSION < 0x060100
    QwtScaleDiv* ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax->upperBound() - ax->lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax->lowerBound() - step, ax->upperBound() - step);

#else

    QwtScaleDiv ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax.upperBound() - ax.lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax.lowerBound() - step, ax.upperBound() - step);
#endif
}

void FreqDisplayForm::notifyYRangePlus()
{
#if QWT_VERSION < 0x060100
    QwtScaleDiv* ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax->upperBound() - ax->lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax->lowerBound() - step, ax->upperBound() + step);

#else

    QwtScaleDiv ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax.upperBound() - ax.lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax.lowerBound() - step, ax.upperBound() + step);
#endif
}

void FreqDisplayForm::notifyYRangeMinus()
{
#if QWT_VERSION < 0x060100
    QwtScaleDiv* ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax->upperBound() - ax->lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax->lowerBound() + step, ax->upperBound() - step);

#else

    QwtScaleDiv ax = getPlot()->axisScaleDiv(QwtPlot::yLeft);
    double range = ax.upperBound() - ax.lowerBound();
    double step = range / 20.0;
    getPlot()->setYaxis(ax.lowerBound() + step, ax.upperBound() - step);
#endif
}


void FreqDisplayForm::notifyFFTSize(const QString& s) { setFFTSize(s.toInt()); }

void FreqDisplayForm::notifyFFTWindow(const QString& s)
{
    if (s == "None") {
        d_fftwintype = gr::fft::window::WIN_NONE;
    } else if (s == "Hamming") {
        d_fftwintype = gr::fft::window::WIN_HAMMING;
    } else if (s == "Hann") {
        d_fftwintype = gr::fft::window::WIN_HANN;
    } else if (s == "Blackman") {
        d_fftwintype = gr::fft::window::WIN_BLACKMAN;
    } else if (s == "Blackman-harris") {
        d_fftwintype = gr::fft::window::WIN_BLACKMAN_hARRIS;
    } else if (s == "Rectangular") {
        d_fftwintype = gr::fft::window::WIN_RECTANGULAR;
    } else if (s == "Kaiser") {
        d_fftwintype = gr::fft::window::WIN_KAISER;
    } else if (s == "Flat-top") {
        d_fftwintype = gr::fft::window::WIN_FLATTOP;
    }

    d_winmenu->getActionFromWindow(d_fftwintype)->setChecked(true);
    emit signalReplot();
}


void FreqDisplayForm::notifyMaxHold(bool en)
{
    d_maxhold_act->setChecked(en);
    emit signalClearMaxData();
    emit signalSetMaxFFTVisible(en);
}

void FreqDisplayForm::notifyMinHold(bool en)
{
    d_minhold_act->setChecked(en);
    emit signalClearMinData();
    emit signalSetMinFFTVisible(en);
}


void FreqDisplayForm::notifyTriggerMode(const QString& mode)
{
    if (mode == "Free") {
        setTriggerMode(gr::qtgui::TRIG_MODE_FREE);
    } else if (mode == "Auto") {
        setTriggerMode(gr::qtgui::TRIG_MODE_AUTO);
    } else if (mode == "Normal") {
        setTriggerMode(gr::qtgui::TRIG_MODE_NORM);
    } else if (mode == "Tag") {
        setTriggerMode(gr::qtgui::TRIG_MODE_TAG);
        updateTrigger(gr::qtgui::TRIG_MODE_TAG);
    }
}


void FreqDisplayForm::notifyTriggerLevelPlus()
{
    emit signalTriggerLevel(getTriggerLevel() + 1);
}

void FreqDisplayForm::notifyTriggerLevelMinus()
{
    emit signalTriggerLevel(getTriggerLevel() - 1);
}
